KR101957240B1 - Air conditioner - Google Patents

Abstract

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioner in which components such as filters are easily replaced or cleaned. The air conditioner of the present invention for realizing this comprises first air passages 110a and 110c for providing a path for discharging the room air introduced from one room to the other room and first air passages 110a and 110c An indoor unit (1) having at least one filter (120, 130, 230) for filtering air passing therethrough; A first air passage 110b connected to the first air passages 110a and 110c of the indoor unit 1, a second air passage 210 having both ends connected to the outside, And an outdoor unit (2) having a heat exchanger (150, 250, 170, 270, 150-1, 250-1) for cooling or heating the air passing through the flow path (210).

Description

AIR CONDITIONER

The present invention relates to an air conditioner, and more particularly, to an air conditioner in which an indoor unit and an outdoor unit are separated.

Generally, an air conditioner is a device that adjusts room temperature and humidity according to a user's request, or keeps the room pleasant by ventilating the room air.

In recent years, various technologies such as dehumidification, humidification, air purification, ventilation, and the like have been added to the air conditioner to develop a technique for keeping indoor air comfortably according to seasonal changes according to the user's selection.

Among such air conditioners, there is known an air conditioner which is divided into an indoor unit and an outdoor unit. Korean Patent Laid-Open No. 10-2005-0100744 entitled " Separate type air conditioner and its heating control method "is disclosed as a conventional detachable air conditioner.

The conventional air conditioner is configured to perform cooling using a refrigeration cycle and to perform cooling and heating by a heat pump system. The indoor unit and the outdoor unit are provided. The air conditioner of this type is designed to operate only the cooling or heating function, so that it is difficult to realize the ventilation function as a whole.

Further, in the case of an air conditioner having a ventilation function, it is difficult to replace or clean components such as a filter.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioner in which components such as filters are easily replaced or cleaned.

It is another object of the present invention to provide an air conditioner in which humidity control, cooling and heating, air cleaning and ventilation functions can be realized by a simple structure.

According to an aspect of the present invention, there is provided an air conditioner comprising: first air passages (110a, 110c) for providing a path for discharging indoor air introduced from one room to another room; An indoor unit (1) having at least one filter (120, 130, 230) for filtering air passing through the indoor unit (110, 110c); A first air passage 110b connected to the first air passages 110a and 110c of the indoor unit 1, a second air passage 210 having both ends connected to the outside, And an outdoor unit (2) having a heat exchanger (150, 250, 170, 270, 150-1, 250-1) for cooling or heating the air passing through the flow path (210).

The outdoor unit 2 is rotated so as to alternately pass through the first area 310 provided on the first air passage 110b and the second area 320 provided on the second air passage 210 A rotor member 300 including an adsorbent may be provided.

The filters 120, 130 and 230 include filters 120 and 130 provided in a first air passage 110a as an inlet of the room air and filters 230 provided in a first air passage 110c as an outlet of the room air Lt; / RTI >

The indoor unit 1 may be provided with a sensor for detecting at least one of temperature, humidity and pollution degree of the room.

The indoor unit 1 may be provided with a water supply unit 500-2 for supplying moisture to the air discharged into the room through the first air passage 110c.

The moisture supply unit 500-2 includes a humidification filter 520-2 for supplying moisture to the air passing through the first air flow path 110c and moisture And water supply means for supplying water.

The water supply means includes a water tank 530-2 in which water for immersing a part of the humidifying filter 520-2 is stored; The water stored in the water tank 530-2 may be water drainable.

The outdoor unit 2 is provided at a position where the first air passage 110b and the second air passage 210 intersect with each other so that the flow direction of the first air passage 110 and the second air passage 210 is A flow path switching unit 400 for switching the flow path switching unit 400; The flow path switching unit 400 discharges the room air introduced through the first air flow path 110a through the second air flow path 210 in the ventilation mode, The direction of the inner flow path is set so as to discharge outdoor air introduced through the first air passage 110c to the room; The indoor air introduced through the first air passage 110a is discharged to the room after passing through the first air passage 110 and the outdoor air introduced through the second air passage 210 The air flow direction may be set so that the air is discharged to the outside after passing through the second air flow path 210.

In the ventilation mode, the outdoor air introduced through the second air passage 210 flows through the filter 220 provided on the second air passage 210 of the outdoor unit 2, 1 through the filter 230 provided on the air flow path 110.

The heat exchanger (150, 250, 170, 270) comprises a first heat exchanger (150) constituting a heat pump (600) and performing heat exchange with air flowing toward the first region (310) A third heat exchanger 170 through which heat is exchanged with air passing through the first region 310, a second heat exchanger 170 through which the heat is exchanged with the air flowing through the second region 320, And a fourth heat exchanger (270) for heat exchange with air; In the case of indoor humidification or indoor heating, the first heat exchanger 150 and the fourth heat exchanger 270 operate as a condenser and an evaporator; The second heat exchanger 250 and the third heat exchanger 270 may be operated as a condenser and an evaporator during indoor dehumidification or indoor cooling.

When the indoor air is heated or humidified, hot water is supplied to the heat exchanger (150-1) provided on the first air passage (110) to heat the air flowing in the first air passage (110); When the indoor air is dehumidified, hot water may be supplied to the heat exchanger (250-1) provided on the second air passage (210) to heat the air flowing in the second air passage (210).

According to the present invention, since the air conditioner is separated into an indoor unit and an outdoor unit, and the indoor unit is provided with a filter and a sensor, components can be easily replaced and cleaned.

In addition, the humidity control, the cooling and heating, the air cleaning and the ventilation functions can be implemented in one device, and the user convenience is improved.

In addition, since the four heat exchangers function as the condenser and the evaporator by using the heat pump, the indoor cooling and heating and humidity control functions can be realized in one device, and the cooling and heating ability and humidity control ability can be improved.

Further, since the flow path switching unit is provided at a point where the first air flow path and the second air flow path intersect, the humidity control, the cooling and heating, the air cleaning, and the ventilation mode can be realized in one apparatus by a simple structure.

In addition, by supplying moisture from the water supply unit to the room air, it is possible to improve the ability to control the room humidity.

In the ventilation mode, the outdoor air is filtered through a number of filters provided in the first air passage and the second air passage, and then flows into the room, so that clean air can be supplied into the room.

1 is a view showing a configuration of an air conditioner according to a first embodiment of the present invention;
FIG. 2 is a view showing an operation state of the air conditioner according to the first embodiment of the present invention in the non-humidifying mode
FIG. 3 is a view showing an operation state of the air conditioner according to the first embodiment of the present invention in a heating and water supply /
4 is a view showing an operating state in a dehumidifying and cooling mode in the air conditioner according to the first embodiment of the present invention;
5 is a view showing an operation state in the air cleaning mode in the air conditioner according to the first embodiment of the present invention
6 is a view showing an operating state in the ventilation mode in the air conditioner according to the first embodiment of the present invention
7 is a view showing a configuration of an air conditioner according to a second embodiment of the present invention
8 is a view showing a configuration of an air conditioner according to a third embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

≪ Embodiment 1 >

The configuration of the air conditioner according to the first embodiment of the present invention will be described with reference to Fig.

The air conditioner of the first embodiment comprises an indoor unit (1) and an outdoor unit (2). The indoor unit 1 may be installed in an indoor space occupied by the user as a stand type, or may be installed on a ceiling as a ceiling type. The outdoor unit (2) is installed in an air conditioner outdoor unit room, a boiler room, or the like.

The indoor unit 1 is provided with a first air passage 110 and a second air passage 110b which provide a path for discharging the room air introduced from one side to the other room, At least one filter (120, 130, 230) for filtering the air is provided.

The first air passage 110a provided at one side of the indoor unit 1 is an inlet portion for introducing indoor air and the second air passage 110c provided at the other side of the indoor unit 1 is provided with a Exit.

The filters 120, 130 and 230 may include a prefilter 120, a functional filter 130, and a HEPA filter 230. However, the types and the number of the filters are not limited thereto, and various modified embodiments are possible.

The prefilter 120 is provided at an inlet 110a of the first air flow path 110 to filter foreign substances of relatively large particles contained in the room air. The functional filter 130 is a filter for removing harmful elements such as antibacterial, antiviral, and allergy.

The HEPA filter 230 is a high performance filter for filtering particulate matter in the air, and is provided in the indoor unit 1 so that it can be filtered just before the air is introduced into the room.

Although not shown in the figure, the indoor unit 1 may be provided with a sensor for detecting at least one of temperature, humidity and pollution degree of the room. One of the indoor heating mode, the cooling mode, the humidifying mode, the dehumidifying mode, the air cleaning mode, and the ventilation mode can be operated from the indoor temperature detected by the sensor, the indoor humidity and the indoor pollution degree.

When the filters 120, 130 and 230 and the sensors are provided in the indoor unit 1, the operation of replacing or cleaning the filters 120, 130 and 230 or the sensors becomes convenient.

The outdoor unit 2 includes a first air passage 110, a second air passage 210, a rotor member 300, a passage switching unit 400, a water supply unit 500, and a heat pump 600 .

The first air passage 110b is connected to the first air passage inlet 110a and the outlet 110c of the indoor unit 1 so that the first region 310 of the rotor member 300 It is the middle part to pass. The first air passage 110 (110a, 110b, 110c) represents a path through which air flows, and may include not only a pipe through which air flows but also a space through which air flows, .

A first heat exchanger 150, a third heat exchanger 170, and a first blower 160 are sequentially disposed in the first air passage 110b.

The first heat exchanger 150 and the third heat exchanger 170 function as an evaporator or a condenser by constituting the heat pump 600.

The first blower 160 provides a suction force to suck indoor air or outdoor air into the first air passage 110.

The second air passage 210 includes an inlet portion 210a through which outdoor air flows from one side, an intermediate portion 210b through the second region 320 of the rotor member 300, And an outlet portion 210c for discharging the outdoor air back to the other outdoor side.

The second air passage 210 is provided with a pre-filter 220, a second heat exchanger 250, a damper 280, a fourth heat exchanger 270, and a second blower 260 in sequence.

The pre-filter 220 is provided at an inlet 210a of the second air passage 210 to filter foreign matter of relatively large particles contained in the outdoor air.

The second heat exchanger 250 and the fourth heat exchanger 270 constitute a heat pump 600 and function as a condenser or an evaporator.

The second blower 260 provides a suction force for sucking outdoor air or indoor air into the second air passage 210.

The damper 280 is disposed between the second region 320 and the fourth heat exchanger 270 at a position where the intermediate portion 210b of the second air passage 210 intersects the bypass passage 285 Respectively. The bypass passage 285 is connected to the outside.

The damper 280 is configured to set the flow direction of the air so that the outdoor air introduced through the bypass flow path 285 is discharged to the outside through the outlet part 210c of the second air flow path 210, The air passing through the second air passage 210 is discharged to the outside through the outlet 210c of the second air passage 210. [

When the direction of the damper 280 is set so that the outlet 210c of the second air passage 210 and the bypass passage 285 are connected to each other, The outdoor air does not flow into the second area 320 because the outdoor air is discharged to the outside through the outlet part 210c of the second air passage 210. [ If the cold outdoor air passes through the second region 320, the adsorbent whose temperature has dropped in the second region 320 rotates to be located in the first region 310, Loss occurs. Accordingly, since the damper 280 and the bypass flow path 285 are provided, heat loss can be prevented from being generated due to the cold outside air.

The rotor member 300 is provided with an adsorbent for adsorbing moisture of air therein. The first region 310 is connected to the first air passage 110 and the second region 320 is connected to the second air passage 210.

A third region 330 is formed between the first region 310 and the second region 320 to supply moisture by the water supply unit 500. In the second region 320, foreign matter can be adsorbed while passing outdoor air. If moisture is supplied to the adsorbent adsorbed by the foreign matter in the second region 320, molds may be generated and it is difficult to maintain the clean state.

Therefore, in this embodiment, the moisture supplied from the water supply unit 500 is supplied to the third region 330, which is independent of the first region 310 and the second region 320.

However, the third region 330 may not be formed independently, and the third region 330 may be formed as one region with the second region 320. In this case, the moisture supplied from the water supply unit 500 may be supplied to the second area 320.

The first region 310, the second region 320 and the third region 330 are separated from each other, and the adsorbent of the rotor member 300 is driven by a driving unit (not shown) .

The flow path switching unit 400 includes a first inlet 410 through which indoor air flows, a second inlet 420 through which outdoor air flows, a first outlet 430 connected to the first region 310, And a second outlet 440 connected to the second region 320. The flow path switching unit 400 may include a four-way valve. The first inlet 410 is connected to the first outlet 430 or the second outlet 440, A direction switching gate (not shown) may be provided to switch the connection direction so that the first outlet 420 or the second outlet 420 is connected to the first outlet 430 or the second outlet 440.

The water supply unit 500 includes a third blower 510 disposed on the humidifying air passage 540 to flow the humidifying air, a water supply unit 500 for supplying moisture when the air supplied by the third blower 510 passes, A water supply valve 550 for supplying water to the water tank 530, a water supply valve 550 for supplying water to the water tank 530, And a drain valve 560 for draining the water of the water pump 530.

In the water tank 530, water is filled at a predetermined water level, and the humidifying filter 520 is provided so that a part of the lower end of the water is immersed in the water. The humidifying filter 520 may be configured to be rotated by a driving unit (not shown).

When the air passes through the humidifying filter 520, the moisture adsorbed by the humidifying filter 520 evaporates and flows into the third region 330 along the humidifying air passage 540.

The air that has been dried after the moisture adsorbed on the adsorbent of the third region 330 is again caused to flow to the humidifying filter 520 by the third blower 510. Thus, the humidifying air passage 540 may be a closed (closed) passage.

The water supply pipe 570 provided with the water supply valve 550 may be connected to supply tap water. The drain pipe 580 provided with the drain valve 560 is connected to the outside of the air conditioner and is configured to be able to drain the water of the water tank 530 to the outside.

By providing the water supply unit 500 as described above, it is possible to adjust the amount of humidification, improve the humidification ability, and provide a comfortable indoor environment.

Although the humidifying filter 520 is partially immersed in water in the present embodiment, the humidifying filter 520 is provided with a spraying means for spraying water to the humidifying filter 520, As shown in FIG. In this case, a nozzle may be provided as an injection means at an end of the water supply pipe 570.

The heat pump 600 includes a compressor 610 for compressing the refrigerant into high temperature and high pressure gas refrigerant, a first heat exchanger 150 for condensing the refrigerant compressed in the compressor 610 into liquid refrigerant of medium temperature and high pressure during heating A second heat exchanger 250 for condensing the refrigerant compressed by the compressor 610 into a liquid refrigerant at a medium temperature and a high pressure at the time of cooling, a second heat exchanger 250 for condensing the refrigerant condensed in the first heat exchanger 150 to a low- A second expansion valve 630-2 for reducing the refrigerant condensed in the second heat exchanger 250 to low temperature and low pressure refrigerant, a second expansion valve 630-2 A third heat exchanger 170 for evaporating the refrigerant decompressed in the first expansion valve 630-1 to a low temperature and low pressure gaseous refrigerant, a fourth heat exchanger 270, which is installed at the outlet side of the compressor (610), for switching the flow direction of the refrigerant during cooling and heating, And a valve 620.

When the heat pump 600 operates in the heating mode, the refrigerant flows through the compressor 610, the four-way valve 620, the first heat exchanger 150, the first expansion valve 630-1, the fourth heat exchanger 270 ), And circulates along the compressor 610. The circulation path of the refrigerant is referred to as a first refrigerant circulation path 640-1. In this case, the first heat exchanger 150 operates as a condenser to heat air flowing in the first air flow path 110, and the fourth heat exchanger 270 operates as an evaporator to flow the second air flow path 210 Thereby cooling the air.

When the heat pump 600 operates in the cooling mode, the refrigerant flows through the compressor 610, the four-way valve 620, the second heat exchanger 250, the second expansion valve 630-2, the third heat exchanger 170, , And circulates along the compressor (610). The circulation path of the refrigerant is referred to as a second refrigerant circulation path 640-2. In this case, the second heat exchanger 250 operates as a condenser to heat the air flowing in the second air passage 210, and the third heat exchanger 170 operates as an evaporator to flow the first air passage 110 Thereby cooling the air.

The air heated or cooled in the first heat exchanger 150 flows toward the first region 310 of the rotor member 300 and the air heated or cooled in the second heat exchanger 250 flows to the rotor member 300 300 in the direction of the second region 320.

Hereinafter, a control method of the air conditioner according to the first embodiment will be described with reference to Figs. 2 to 6. Fig.

Referring to FIG. 2, the non-humidifying mode will be described.

The non-humidified humidification mode refers to a mode in which humidification is performed using moisture contained in outdoor air in a state where water is not supplied from the water supply unit 500 to the third area 330.

The flow path switching unit 400 includes a direction switching gate such that the first inlet 410 and the first outlet 430 are connected to each other and the second inlet 420 and the second outlet 440 are connected to each other. And is set to the first position.

In addition, the first blower 160, the second blower 260, and the compressor 610 are turned on, and the rotor member 300 rotates. The damper 280 is oriented so that air having passed through the second region 320 flows toward the outlet portion 210c of the second air passage 210. [

When the compressor 610 is turned on, the refrigerant circulates along the first refrigerant circulation path. In this case, the first heat exchanger 150 operates as a condenser to heat the air flowing in the first air flow path 110, and the second heat exchanger 250 operates as an evaporator.

The indoor air introduced into the indoor unit 1 through the inlet 110a of the first air flow path 110 by the operation of the first blower 160 passes through the prefilter 120, the functional filter 130, The switching unit 400, the first heat exchanger 150, the first area 310, and the HEPA filter 230, and then discharged into the room. In this case, the room air is heated while passing through the first heat exchanger (150).

The outdoor air introduced through the inlet 210a of the second air passage 210 by the operation of the second blower 260 passes through the prefilter 220, the passage switching unit 400, the second heat exchanger 250, and then passes through the second region 320. In this case, the moisture contained in the outdoor air is adsorbed by the adsorbent in the second region 320, and the temperature of the outdoor air passing through the second heat exchanger 250 as the evaporator is lowered, thereby increasing the adsorption amount of water.

When the absorbent material in which the moisture of outdoor air is absorbed in the second region 320 is located in the first region 310 by the rotation of the rotor member 300, Moisture is evaporated while passing through the adsorbent of the first region 310 to form moist indoor air. The indoor air having passed through the first region 310 is discharged to the room through the outlet portion 110c of the first air flow path 110, thereby humidifying the room.

In this case, the refrigerant does not flow into the second heat exchanger 250 and the third heat exchanger 170, and thus does not affect the indoor air and the outdoor air.

The heating and water supply and humidification mode will be described with reference to Fig.

In the heating and water supply / humidification mode, the direction switching gate is set to the first position in the flow path switching unit 400, the first blower 160, the second blower 260 and the compressor 610 are turned on, The rotation of the rotor member 300 is the same as that of the no-load humidification mode. The refrigerant also flows along the first refrigerant circulation path 640-1 so that the first heat exchanger 150 operates as a condenser and the fourth heat exchanger 270 operates as an evaporator.

The moisture is supplied from the water supply unit 500 to the third region 330 and the direction of the damper 280 is connected from the bypass flow passage 285 to the outlet portion 210c of the second air flow passage 210 It differs from the no-humid humidification mode.

The water supply unit 500 is provided with the water supply valve 550 opened to supply water to the third area 330 and the water tank 530 is filled with water and the third blower 510 is turned on, The air circulating through the flow path 540 is humidified air passing through the humidifying filter 520 and flows into the third region 330 of the rotor member 300. The moisture adsorbed in the third region 330 is located in the first region 310 by the rotation of the rotor member 300.

The indoor air flows through the first air passage 110 by the operation of the first blower 160. [ The heated indoor air passing through the first heat exchanger (150) passes through the first region (310) of the rotor member (300). In this case, the adsorbent adsorbing moisture in the third region 330 is rotated to be located in the first region 310, and the heated indoor air passes through the first region 310 to evaporate the moisture of the adsorbent, . The room air having passed through the first area 310 is discharged to the room through the outlet part 110c of the first air flow path 110. [ As a result, indoor heating is performed together with indoor humidification.

The outdoor air is introduced into the bypass passage 285 through the outlet portion 210c of the second air passage 210 via the fourth heat exchanger 270 and the other side And is discharged outdoors. Accordingly, since the cold outdoor air does not pass through the second region 320, it is possible to prevent the cold outdoor air from affecting the temperature of air passing through the first region 310, thereby minimizing the energy loss.

The dehumidification and cooling mode will be described with reference to Fig.

In the dehumidifying and cooling mode, the direction switching gate is set to the first position in the flow path switching unit 400, the first blower 160, the second blower 260 and the compressor 610 are turned on, The point that the member 300 rotates and the water is not supplied from the water supply unit 500 is the same as the non-water supply humidification mode.

When the compressor 610 is turned on in the dehumidification mode, the refrigerant circulates along the second refrigerant circulation path 640-2. In this case, the second heat exchanger 250 operates as a condenser, and the third heat exchanger 170 operates as an evaporator.

When the first blower 160 is operated, the room air passes through the first zone 310 and the moisture contained in the room air is adsorbed to the adsorbent of the first zone 310. The indoor air from which the moisture is removed in the first region 310 is discharged to the room through the outlet portion 110c of the first air passage 110. [ In this case, since the temperature of the air discharged into the room is lowered by the third heat exchanger 170, the indoor air cooling effect is obtained.

When the second blower 260 is operated, the outdoor air introduced through the inlet 210a of the second air passage 210 is heated while passing through the second heat exchanger 250, 320). When the adsorbent of the rotor member 300 which absorbs the moisture of indoor air in the first region 310 rotates and is located in the second region 320, the heated outdoor air passing through the second region 320 The moisture of the adsorbent is evaporated and the outdoor air is humidified and discharged to the outside through the outlet 210c of the second air passage 210. [

By this process, the indoor air is dehumidified, and a pleasant indoor environment can be maintained.

The air cleaning mode will be described with reference to FIG.

In the air cleaning mode, the first blower 160 is turned on and the direction switching gate of the flow path switching unit 400 is set to the first position. The compressor 610 is turned off and the water supply unit 500 does not supply water.

Due to the operation of the first blower 160, the indoor air introduced through the inlet 110a of the first air passage 110 is subjected to primary filtration of foreign particles having a large particle size in the prefilter 120, The harmful elements such as allergies are removed from the filter 130 and the fine particles are removed from the HEPA filter 230 after passing through the first region 310. The room air having passed through the HEPA filter 230 is discharged to the room through the outlet 110c of the first air passage 110, thereby purifying the room air.

In this case, if the smell of the indoor air is to be removed, the rotor member 300 is rotated and the second blower 260 is operated. A polymer dehumidifier is coated on the surface of the adsorbent of the rotor member 300 to remove odors when room air contacts the surface of the adsorbent.

The ventilation mode will be described with reference to Fig.

When the ventilation mode is activated, the first blower 160 and the second blower 260 are operated. In this case, the direction switching gate of the flow path switching unit 400 is set to be the second position. The compressor 610 is turned off and the water supply unit 500 does not supply water.

The indoor air sucked into the inlet portion 110a of the first air passage 110 by the operation of the second blower 260 passes through the prefilter 120, the functional filter 130, the passage switching portion 400, 2 region 320 and then discharged to the outside through the outlet portion 210c of the second air passage 210. [

At the same time, the outdoor air sucked into the inlet portion 210a of the second air channel 210 by the operation of the first blower 160 passes through the pre-filter 220, the channel switching portion 400, the first region 310 And the HEPA filter 230, and then discharged through the outlet 110c of the first air passage 110 to the room.

Accordingly, the room air is discharged to the outside, and the outdoor air flows into the room through the plurality of filters 220 and 230, thereby ventilating the room air.

In the ventilation mode, the outdoor air is filtered by the pre-filter 220 provided in the second air passage 210, and then the first air passage 110 is opened, The air is filtered through the first air passage 110 and the filters 220 and 230 provided in the second air passage 210 and then flows into the room. .

In addition, since the HEPA filter 230 filters not only the indoor air but also the outdoor air in the mode described in FIGS. 2 to 6, it is necessary to frequently replace the filter. Therefore, if the HEPA filter 230 is provided in the indoor unit 2, it is easy to replace the filter, so that the cost and time for replacing the filter can be reduced.

≪ Embodiment 2 >

The configuration of the air conditioner according to the second embodiment of the present invention will be described with reference to Fig.

The air conditioner of the second embodiment is provided with a first heat exchanger 150-1 and a second heat exchanger 250-1 for heating the air by the supply of hot water instead of the heat pump 600, The second embodiment differs from the first embodiment in that there is no configuration of the damper 280 and the damper 280, and the rest of the configuration is the same.

Heat exchange is performed between the hot water flowing in the first heat exchanger (150-1) and the room air to heat the room air. Hot water supplied from a hot water supply source (not shown) is supplied to the first heat exchanger 150-1 through the hot water supply pipe 152-1 and the hot water supply valve 151-1, and the hot water supplied from the first heat exchanger 150-1 ) Flows to the hot water return pipe 153-1 after the temperature has dropped.

The hot water supplied from the hot water supply source is supplied to the second heat exchanger 250-1 through the hot water supply pipe 152-1 and the hot water supply valve 251-1.

Also in the air conditioner of the second embodiment, the operation of the humidification mode, the heating mode, the air cleaning mode, the dehumidification mode, and the ventilation mode is possible. The operation of each mode described above can be understood by a person skilled in the art based on the contents described in the first embodiment, and a detailed description thereof will be omitted.

≪ Third Embodiment >

The configuration of the air conditioner according to the third embodiment of the present invention will be described with reference to Fig.

The third embodiment is different from the second embodiment in that the first blower 160-2 and the water supply portion 500-2 are provided in the indoor unit 1 and the rotor member 300-2 is provided in the first region 310-2 and the second area 320-2, and the remaining configuration is the same.

The water supply part 500-2 is provided inside the indoor unit 1 to supply moisture to the air discharged to the indoor through the outlet part 110c of the first air flow path 110. [ The water supply unit 500-2 includes a humidifying filter 520-2 for supplying moisture to the air passing through the outlet 110c of the first air flow path 110, A water tank 530-2 in which water for immersing a part of the lower end of the humidifying filter 520-2 is stored as water supply means for supplying moisture to the water tank 530-2 so that water is adsorbed on the water tank 530-2, And a water supply valve 550-2 provided in the water supply pipe 570-2 for supplying water.

The water in the water tank 530-2 can be drained to the outside through a drain pipe 580-2 and a drain valve 560-2.

When the humidifying filter 520-2 is placed on the outlet 110c of the first air flow path 110 and humidification is performed by the operation of the first blower 160-2, It is not necessary to provide the separate humidifying air passage 540 and the third blower 510 as in the second embodiment and it is not necessary to configure the third region 330 in the rotor member 300-2, The configuration of the product is simplified.

Also in the air conditioner of the third embodiment, the operation of the humidification mode, the heating mode, the air cleaning mode, the dehumidification mode, and the ventilation mode is possible. The operation of each mode described above can be understood by a person skilled in the art based on the contents described in the first embodiment, and a detailed description thereof will be omitted.

In the above embodiments, the heat exchanger using the heat pump and the hot water has been exemplified. However, the present invention is not limited to this, and the heat energy supplied from various heat sources such as electric heaters, boilers, and district heating can be used.

As described above, the present invention is not limited to the above-described embodiments, and various changes and modifications may be made without departing from the scope of the present invention as defined in the appended claims. And such modifications are within the scope of the present invention.

110: first air flow path 120: prefilter
130: Functional filter 150, 150-1: First heat exchanger
160,160-2: First blower 210: Second air passage
220: Prefilter 230: Hepa filter
250, 250-1: second heat exchanger 260: second blower
280: damper 285: bypass passage
300, 300 - 2: rotor member 310, 310 - 2:
320, 310-2: second area 330: third area
400: flow path switching part 410: first inlet
420: second inlet port 430: first outlet port
440: second outlet 500, 500-2:
510: Third blower 520, 520-2: Humidification filter
530,530-2: water tank 540: humidifying air flow path
550,550-2: Water valve 560,560-2: Drain valve
570,570-2: Water pipe 580,580-2: Water pipe
600: Heat pump 610: Compressor
620: Four-way valve 630-1: First expansion valve
630-2: second expansion valve 640-1: first refrigerant circulation path
640-2: second refrigerant circulation path

Claims (11)

(110a, 110c) for providing a path for discharging the room air introduced from one room to the other room, at least one filter for filtering air passing through the first air channels (110a, 110c) A humidifying filter 520-2 for supplying moisture to the air exhausted into the room through the first air passage 110c and a humidifying filter 520-2 for supplying moisture to the humidifying filter 520-2 An indoor unit 1 having a water supply unit 500-2 made of water supply means;
A first air passage 110b connected to the first air passages 110a and 110c of the indoor unit 1, a second air passage 210 having both ends connected to the outside, An outdoor unit (2) having a heat exchanger (150, 250, 170, 270, 150-1, 250-1) for cooling or heating the air passing through the flow path (210);
An air conditioner The method according to claim 1,
The outdoor unit 2 is rotated so as to alternately pass through the first area 310 provided on the first air passage 110b and the second area 320 provided on the second air passage 210 Characterized in that a rotor member (300) including an adsorbent is provided The method according to claim 1,
The filters 120, 130 and 230 include filters 120 and 130 provided in a first air passage 110a as an inlet of the room air and filters 230 provided in a first air passage 110c as an outlet of the room air Wherein the air conditioner The method according to claim 1,
The indoor unit (1) is provided with a sensor for detecting at least one of temperature, humidity and pollution degree of the room. delete delete The method according to claim 1,
The water supply means includes a water tank 530-2 in which water for immersing a part of the humidifying filter 520-2 is stored;
Wherein water stored in the water tank (530-2) is drained through a drain hole The method according to claim 1,
The outdoor unit 2 is provided at a position where the first air passage 110b and the second air passage 210 intersect with each other so that the flow direction of the first air passage 110 and the second air passage 210 is A flow path switching unit 400 for switching the flow path switching unit 400;
The flow path switching unit 400,
In the ventilation mode, indoor air introduced through the first air passage (110a) is discharged to the outside through the second air passage (210), and outdoor air introduced through the second air passage (210) 1 is set to discharge the air to the room through the air passage 110c;
The indoor air introduced through the first air passage 110a is discharged to the room after passing through the first air passage 110 and the outdoor air introduced through the second air passage 210 And the air flow direction is set so that air is discharged to the outside after passing through the second air flow path (210) 9. The method of claim 8,
In the ventilation mode, the outdoor air introduced through the second air passage 210 flows through the filter 220 provided on the second air passage 210 of the outdoor unit 2, And the air is discharged to the room through the filter (230) provided on the air flow path (110) 3. The method of claim 2,
The heat exchanger (150, 250, 170, 270) comprises a first heat exchanger (150) constituting a heat pump (600) and performing heat exchange with air flowing toward the first region (310) A third heat exchanger 170 through which heat is exchanged with air passing through the first region 310, a second heat exchanger 170 through which the heat is exchanged with the air flowing through the second region 320, And a fourth heat exchanger (270) for heat exchange with air;
In the case of indoor humidification or indoor heating, the first heat exchanger 150 and the fourth heat exchanger 270 operate as a condenser and an evaporator;
Wherein the second heat exchanger (250) and the third heat exchanger (170) operate as a condenser and an evaporator when indoor dehumidification or indoor cooling is performed. The method according to claim 1,
When the indoor air is heated or humidified, hot water is supplied to the heat exchanger (150-1) provided on the first air passage (110) to heat the air flowing in the first air passage (110);
Wherein when the indoor air is dehumidified, hot water is supplied to the heat exchanger (250-1) provided on the second air passage (210) to heat the air flowing in the second air passage (210) Harmonizer

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